The Organic food and farming sector within Europe is continuing to develp in response to governmental Action Plans and CAP policy development.
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The Organic food and farming sector within Europe is continuing to develp in response to governmental Action Plans and CAP policy development. The organic sector requires highly trained individuals to work as certification officers, advisers, agronomists, farmers, farm managers and livestock specialists. SRUC offers this programme to enable students with a variety of academic and working experiences to gain a fast-track understanding of the key technical production, marketing and management aspects of organic farming and food.

This enables students to build on their existing expertise and aspirations, and to give them enhanced career opportunities as practitioners, promoters and facilitators within the sector.

The organic farming courses are offered on a part-time distance learning basis to allow those in continuing employment or with family commitments to be able to participate. Course participants come from a wide range of backgrounds, including farmers, growers, vets and other agricultural and food sector workers who wish to develop their career and businesses in the organic food and farming sector, as well as those from unrelated backgrounds wishing to increase their knowledge and understanding of organic systems.

Specific course objectives are to provide graduates with: - An ability to critically appraise organic farming as an agricultural system - A good understanding of the organic sector - A sound knowledge of the science underpinning organic farming - An understanding of the marketing, business & quality assurance requirements for organic produce - Work placement experience - Research skills (MSc only)

The course is accessible through its delivery by part-time on-line distance learning.

Course Content

The course modules comprise of a mix of technical production, marketing and management, and skill development modules.

Organic Forage and Livestock Production

This module will provide an understanding of the role of forage legumes in organic systems and describe grassland management systems that maximise the contribution of legumes. Students will also be given an understanding of the organic approach to livestock production, particularly in terms of animal welfare, preventative health management and nutrition.

Soils and Nutrient Cycling

This module will aim to provide the students with the tools for optimal management of their soils. Ultimately, they should be able to describe soil properties, evaluate soil fertility and assess management requirements in the context of organic farming. The module provides an understanding of the chemical, physical and biological features of soil fertility and nutrient cycling and develops practical skills in soil assessment and whole farm nutrient budgeting.

Organic Crop Production

This module will provide an understanding of methods of crop production for arable and vegetable field crops, with particular reference to organic farming in the UK. The module will develop an understanding of breeding, establishment, nutrition, protection, harvesting and storage in the context of organic crop production of field crops.

Organic Farming Case Study

This module will improve the student's ability to undertake whole farm analysis and in particular organic conversion planning. Whole farm analysis involves a range of skills and examination of a wide range of issues: technical, financial, marketing and environmental. The module will require the student to integrate the knowledge gained in other modules, to provide an evaluation and plan for the conversion to organic production of an actual farm example.

Organic Farming Profession

This module will provide an overview of the philosophy, principles, history and development of the organic farming industry. The organic standards will be introduced and the ways in which they are used to regulate the organic food and farming industry at UK, European and world levels will be covered. The roles of the main UK organisations that influence the development of the organic sector will also be explored.

Organic Farming Work Placement

This module will allow students to become familiar with an organisation or business in the organic food and farming sector during a 6-week (or equivalent) work placement. The student will gather relevant and unique material to enable them to carry out a technical and business analysis and make recommendations for future development of the organisation or business in question. The material will also be used in class discussion and to contribute to group learning.

Issues in Organic Farming

This module explores the public goods delivered by organic farming. It develops an understanding of food quality and the role and application of Quality Assurance (QA) Schemes in the organic food sector to meet the needs of relevant legislation and consumer concerns. The module also provides an overview of the principles of environmental management in the context of organic agriculture, helping students gain an appreciation of the potential impacts of agricultural enterprises on the environment, measures for minimising such impacts, and opportunities for incorporating positive environmental management measures into farm business plans.

Marketing and Business Management in the Organic Farming Sector

This module will provide an understanding of the concepts, principles and techniques involved in marketing management and how they are applied in the context of the organic farming sector. Financial accounts are one source of information regarding an organic business, and aid the process of planning and control. This module will provide an understanding of accounts to assist in the process of setting goals within a business and assessing the financial consequences of alternatives.

Course Format

This course is studied part time through on-line distance learning. This allows those in continuing employment or with family commitments to participate. With the exception of several weekend schools and a short study tour, the learning is carried out in the student's home or work place.

The MSc Project (taken following successful completion of taught modules) Provides an opportunity for in-depth individual research on a topic related to organic farming.

Postgraduate Diploma

The PgDip is a high level learning course taught at university post-graduate level for students who opt not to progress to the Masters. Students are required to complete all taught modules detailed above. Typically a student will study 4 modules per year and complete the PgDip in two years. This would normally take an average of 12 to 15 hours study time a week.

Study Tour

The study tour is used to visit a range of organic and conventional farms as well as businesses operating in the organic food supply and distribution chain. In the taught modules an element of student choice is often built in through the use of essay and other course work topics that cover areas of potential interest. There is also a Work Placement module. Students following the distance learning course may gain exemption from the practical element of the placement but will require to complete a report of their work experience.

The study weekends and short study tour are an integral part of teaching delivery and students are strongly recommended to attend these if they are to succeed in this course.

The Organic Agriculture programme has been designed to train students in multiple aspects of organic agriculture and the associated processing and marketing chain.
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MSc Organic Agriculture

The Organic Agriculture programme has been designed to train students in multiple aspects of organic agriculture and the associated processing and marketing chain. An important goal is to prepare the students for interdisciplinary teamwork at an academic level.

Programme summary

This programme has been designed to train students in multiple aspects of organic agriculture and the associated processing and marketing chain. An important goal is to prepare for interdisciplinary teamwork at an academic level. The programme is unique in its combination of detailed consideration of the underlying principles and processes from a natural science perspective with social and economic studies. Creative thinking is required to design new sustainable farming and marketing systems instead of simply optimising existing systems. The programme has an international character that uses case studies and offers project opportunities in both the developed and developing world. The curriculum has been carefully formulated to provide a balance between fundamental and applied science. Various university groups participate including farming systems ecology, soil quality, animal science, entomology, rural sociology, environmental policy, education and economy, making this a well-rounded and holistic programme.

Specialisations

Agroecology Due to concerns on conventional farming practices, food safety issues and pollution, consumers increasingly demand wholesome agricultural products that are produced in a sustainable way. In addition to the demand for organic products by consumers in industrialised countries, there is a need for scientific agroecological farming practices in developing countries and countries in economic distress. In these regions, farmers cannot afford external inputs like pesticides, fertilisers or expensive seeds. Courses focus on: the analysis and design of sustainable organic farming systems; studying the relationship between plant and animal production; soil and landscape; analysing factors affecting plant and animal health; organic product quality. Students learn a systems approach to conduct research projects involving integrated agroecological systems.

Consumer and Market Socio-economic constraints affect the demand for organic products, and are major bottlenecks to expand organic production. Improved understanding of consumer preferences is essential to stimulate sustainable production of healthy food and renewable resources. Production, processing and marketing of organic products is increasingly affected by (inter-) national policy and legislation. Insight into these aspects is crucial to expand organic production systems. Courses focus on: analysis of consumer perception; insight into relations between government policy and consumer behaviour; development of strategies for certification and trademarks for organic products; globalisation of food production and consumption; environmental education; global versus local production. Students acquire skills to analyse complex problems at the intersection of organic agriculture and society.

Double degree in Agroecology The double degree programme combines the strengths of the two co-operating institutes, adding the specialist knowledge in agroecosystems management of FESIA with the expertise in designing and evaluating organic food production chains in Wageningen. Students get the opportunity to understand structure and function of complex agroecosystems. They learn to apply systems approaches in studying, designing and evaluating agricultural systems and food production chains, and to develop creative solutions for sustainable farming and marketing of organic products. Action learning and action research through cooperation with farmers, food system professionals and consumers will shorten the distance between practice and theory.

Your future career

Graduates have career opportunities in agribusiness, research, non-governmental organisations and public administration. They often hold jobs such as scientist, consultant, policy maker or quality assurance officer.

Alumna Natasja Poot. “I have chosen the MSc Organic Agriculture because I was looking for a programme in which all aspects of agriculture are discussed. Courses addressed topics on soils, plants, animals and their interactions. I did not want to limit myself to just organic agriculture, but I can apply the knowledge to all conventional integrated farming systems as well. After graduating, I started at BLGG as a product manager Soil Health. BLGG is a laboratory in the agricultural sector that offers innovative analyses and advices that help farmers in their everyday management. In my position, I am focusing on developing tools for soil-borne diseases, nematodes and soil suppressiveness.”

This course will provide you with an in-depth specialisation in organic farming and food production systems and it is currently the only specialised MSc in organic and ecological farming in England.
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This course will provide you with an in-depth specialisation in organic farming and food production systems and it is currently the only specialised MSc in organic and ecological farming in England. You will learn and test the latest approaches in the integrated delivery of soil, crop and livestock, and food supply chain management.

Through a combination of lectures, field trips, seminars, practical classes and research projects you will develop advanced knowledge and skills in:

-Managing organic farming and food production units or businesses in different macroclimatic, agronomic and market contexts

-Agronomic approaches used in organic/biological/ecological/sustainable food production systems

-Applied and strategic research underpinning the development of organic and other sustainable farming and food production systems

-A wide range of analytical laboratory methods

You will have the opportunity to attend a 10-day field trip as part of the module on Mediterranean perennial crop production systems in Crete, Greece. The trip is organised in collaboration with ecological farming experts from the Greek National Science Foundation (NAGREF).

As part of your studies you will also undertake a major project, similar to one you might experience in the workplace. You will be supported through training in designing and delivering a laboratory project or field-based investigation. You will collect, analyse and interpret data to produce a thesis reporting your investigation and results in a critical manner.

This research project and thesis may be undertaken at the University, in industry, in Crete as part of existing Nafferton Ecological Farming Group research and development projects, or in another country.

Our staff

You will benefit from being taught by lecturers who are industry experienced and research active. Our research in integrated agricultural production focuses on soil science, plant science and ecology, spanning a range of scales from: pot – plot – farm – landscape.

Strategic research embraces work on:

-Soil quality

-Rhizosphere function

-Plant-soil feedback

-Soil-carbon dynamics

-Nutrient cycling

Applied research addresses issues of:

-Climate change mitigation (including biofuels)

-Ecological (organic) farming systems

-Low-input crop systems

-Agriculture-environment interactions

Professor Carlo Leifert is the Degree Programme Director for MSc in Organic Farming and Food Production Systems. Carlo is a member of the Food Security Network in the Newcastle Institute for Research on Sustainability (NIReS) and is part of the Nafferton Ecological Farming Group (NEFG). He currently manages EU and DEFRA funded projects focused on improving resource efficiency, productivity and food quality and safety in organic and 'low input' crop and livestock production systems.

Delivery

The course is taught in a block format with a six-week block and then two-week teaching blocks.

You will be taught through:

-Lectures

-Seminars

-Practical and field classes

-Tutorials

-Case studies

-Small group discussions

You will be expected to undertake independent study outside of these structured sessions. Your knowledge and understanding will be assessed through written examinations, coursework, presentations and your final major project.

You can also study through the Credit Accumulation Transfer Scheme (CATS). This allows us to award postgraduate level qualifications using credit-bearing stand-alone modules as 'building blocks' towards a qualification. This means that the credits from modules undertaken within a five-year period can be 'banked' towards the award of a qualification.

Facilities

Farms

Our multi-purpose farms provide demonstration facilities for teaching purposes and land-based research facilities (especially in the area of organic production). They are both viable farming businesses.

Cockle Park Farm

Cockle Park Farm is a 262ha mixed farm facility that includes the Palace Leas Plots hay meadow experiment and a new anaerobic digestion plant that will generate heat, electricity and digestate - an organic fertiliser - from pig and cattle manure.

Nafferton Farm

Nafferton Farm is a 300ha farm with two main farm units covering conventional and organic farming systems. The two systems are primarily focussed upon dairying and arable cropping.

Both also operate beef production enterprises as a by-product of their dairy enterprises, although the organic system is unique in maintaining a small-scale potato and vegetable production enterprise.

Laboratories

Our modern laboratories provide important teaching and research environments and are equipped with analytical equipment such as High-Performance Liquid Chromatography (HPLCs), GCs, CNS analyser (Carbon and Nitrogen analysis), centrifuges, spectrophotometers and molecular biology equipment. Our specialist research facilities include:

tissue culture laboratory

plant growth rooms

class II laboratory for safe handling of human biological samples

taste panel facilities and test kitchen

thin section facility for soils analysis

We operate closely with other schools, institutes and the University's central scientific facilities for access to more specialist analytical services.

For work with human subjects we use a purpose built Clinical Research Facility which is situated in the Royal Victoria Infirmary teaching hospital and is managed jointly by us and the Newcastle upon Tyne Hospitals NHS Foundation Trust.

nu-food Food and Consumer Research Facility

The NU-Food Food and Consumer Research Facility has undergone a £700,000 refurbishment and now boasts a culinary training suite, a sensory laboratory and food handling facility, all supported by multi-functional rooms and a reception.

The Master’s programme Organic Synthesis and Medicinal Chemistry aims to provide students with knowledge on the design, synthesis and evaluation of low-molecular weight biologically active organic substances.
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The Master’s programme Organic Synthesis and Medicinal Chemistry aims to provide students with knowledge on the design, synthesis and evaluation of low-molecular weight biologically active organic substances. This programme offers an advanced level of knowledge with regard to organic synthesis and pharmaceutically active compounds, as well as supplementary knowledge of medicinal chemistry.

Low-molecular weight biologically active substances are at the core of Life Science Research. Knowledge of molecular structures and their properties is crucial to our understanding of a vast cross section of science, ranging from pharmaceutically active compounds to organic electronics and their incorporation into diagnostic tools as biosensors.

The main focus of this programme is the comprehension of organic synthesis pertaining to biologically active compounds. The programme begins with courses in organic chemistry and organic synthesis, building from the basic concepts to the advanced level, followed by an introduction in medicinal chemistry. It also covers protein chemistry, which broadens the students’ knowledge in the field of bioorganic chemistry.

The programme culminates by bringing together the skills and knowledge acquired in a longer thesis project, in either a research group or industry. Our research facilities are well equipped with all the necessary analytical/diagnostic equipment you would normally find in many industrial research facilities.

The aim of UCLan’s Master of Science in Synthetic Organic Chemistry course is to provide an intellectually stimulating and satisfying experience of learning and studying modern aspects of organic chemistry.
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The aim of UCLan’s Master of Science in Synthetic Organic Chemistry course is to provide an intellectually stimulating and satisfying experience of learning and studying modern aspects of organic chemistry.

This course blends a theoretical knowledge of advanced concepts in organic synthesis and spectroscopic analysis with industrial applications but, unlike many Masters level courses of this type, does not focus students on one particular application of organic chemistry eg, medicinal chemistry. Instead it provides training, knowledge and a perspective of a broad range of chemical industries reliant upon organic chemistry.

INDUSTRY LINKS

We will be seeking accreditation from the Royal Society of Chemistry.

PROFESSIONAL ACCREDITATION

Our Chemistry department is top in the UK in terms of student satisfaction, ranking first in the Times Good University Guide 2015.

LEARNING ENVIRONMENT AND ASSESSMENT

Computing Facilities are available in the general computing suites found within the building and throughout campus. Extensive Resources are available to support your studies provided by Learning & Information Services (LIS) – library and IT staff. You are advised to take advantage of the free training sessions designed to enable you to gain all the skills you need for your research and study.

LIS provide access to a huge range of electronic resources – e-journals and databases, e-books, images and texts. Course and module materials are not provided in ‘hard copy’ format, however, wherever practicable, lecture notes and/or presentations, seminar materials, assignment briefs and materials and other relevant information and resources are made available in electronic form via eLearn. This is the brand name for the online Virtual Learning Environment (VLE) that the University uses to support and enhance teaching and learning.

All students can access the eLearn spaces for the course and modules for which they are registered. Once logged into your eLearn area you can access material from the course and all of the modules you are studying without having to log in to each module separately.

The modules are assessed by both coursework and examination. To ensure that you do not have an excessive amount of assessment at any one time, the coursework assessment will take place uniformly throughout the course.

FURTHER INFORMATION

The theoretical aspects of the course are underpinned by an extensive series of laboratory classes. This cumulates in an 80 credit project where you have the opportunity to specialise an area of organic chemistry. This course will appeal to graduates from chemistry and related disciplines and will provide excellent preparation for anyone wishing to find employment in any organisation where a knowledge of organic synthesis or analysis is important.

Semester 1 of the course is designed to ensure that you have the basic skills needed to obtain an MSc. It is important that you enhance the skills you have that will be of benefit when you gain employment after the course. The main skills that you will enhance will be presentational skills, report writing, independent working and problem solving.

The Organic Chemistry. Drug Discovery MRes at UCL offers students the opportunity to follow an integrated course of research and interdisciplinary study.
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The Organic Chemistry: Drug Discovery MRes at UCL offers students the opportunity to follow an integrated course of research and interdisciplinary study. Students gain outstanding training in synthetic organic chemistry applied to drug design, together with a breadth of experience in several areas of synthetic methodology and chemical biology.

Degree information

The programme provides a thorough foundation in drug design, advanced organic synthesis and molecular modelling, together with modules on research techniques, professional development and entrepreneurship. Students will carry out a substantial research project on organic/medicinal chemistry or chemical biology over a ten-month period.

MRes students undertake modules to the value of 180 credits.

The programme consists of two modules from the Wolfson Institute for Biomedical Research (30 credits), one Master's level chemistry module (15 credits) two transferable/research skills modules (30 credits) and the research project (105 credits).

Dissertation/report Students will undertake a laboratory-based research project lasting ten months. An interim report is submitted after five months, and at the end of the project each student writes a dissertation, gives a short presentation and has a viva voce examination.

Teaching and learning The programme is delivered through a combination of lectures, problem classes, workshops and projects. Assessment is through unseen written examination, coursework, project reports and presentations.

Careers

The MRes has been developed in response to the needs of the pharmaceutical and biotechnology sectors for highly qualified students as leaders in the discovery of new medicines. The pharmaceutical sector is a major employer in the UK and high-quality graduates with an understanding of the sector are always in demand. Our recent graduates have taken up PhD positions, are working in industry and have entered teacher training.

Top career destinations for this degree: -PHD Chemical Biology, University College London (UCL) -PhD Radiochemistry, University College London (UCL)

Why study this degree at UCL?

This programme is taught in collaboration with the Wolfson Institute of Biomedical Research (WIBR) which brings together scientists and clinicians from both academic and pharmaceutical industry backgrounds. The institute's strength is in its multidisciplinary approach to research, with the goal of identifying novel targets for drug development.

This MSc allows you to build on your undergraduate training in Chemistry to develop a deeper understanding of the subject, whilst building advanced knowledge in aspects of Organic Chemistry; including organic reaction mechanisms, spectroscopy, and synthetic strategy.
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This MSc allows you to build on your undergraduate training in Chemistry to develop a deeper understanding of the subject, whilst building advanced knowledge in aspects of Organic Chemistry; including organic reaction mechanisms, spectroscopy, and synthetic strategy.

This kind of high-level training is sought after by employers in the chemical industry as well as top academic institutions working on fundamental research. You’ll receive specialised lectures, seminars and laboratory classes which are tailored to the needs of pharmaceutical, agrochemical, speciality and fine organic chemicals industries.

You’ll also complete an in-depth research project, which allows you to work closely with our pioneering, award-winning academics on a topic of your choice. The School of Chemistry was ranked 4th in the UK for the quality of its research output (REF 2014), so you’ll be taught by some of the best researchers in the country.

Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges.
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Chemistry: Molecular Chemistry

Molecular chemistry is a creative science, where chemists synthesize molecules with new biological or physical properties to address scientific or societal challenges. Think of new catalytic conversions, lead compounds for future medicines or the next generation of conducting polymers. The specialisation Molecular Chemistry offers education in connection with top-level research in the Institute for Molecules and Materials (IMM), enabling you to develop in-depth knowledge of the design, synthesis and characterization of unprecedented functional molecular structures.

Why study Molecular Chemistry at Radboud University?

- The IMM at Radboud University hosts an internationally renowned cluster of molecular chemistry groups, where you will participate in challenging research projects. - The IMM Organic Chemistry department was recently awarded a 27 million euro NWO Gravity programme grant. Among the teaching staff are two ERC advanced grant and two ERC starting grant winners. - Teaching takes place in small groups and in a stimulating, personal setting.

Admission requirements for international students

1. A completed Bachelor's degree in Chemistry, Science or a related area In general, you are admitted with the equivalent of a Dutch Bachelor's degree in Chemistry, Science with relevant subjects, or a related programme in molecular science. In case of other pre-education, students must have passed preliminary examinations containing the subject matter of the following well-known international textbooks (or equivalent literature). Any deficiencies in this matter should be eliminated before you can take part in this specialisation. If you want to make sure that you meet our academic requirements, please contact the academic advisor. - Organic chemistry: e.g. Organic Chemistry (Bruice) - Biochemistry: e.g. Biochemistry (Lehninger) - Physical chemistry: e.g. Physical chemistry (Atkins) - 30 EC of chemistry or chemistry-related courses at third year Bachelor's level

2. A proficiency in English In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English* without a Dutch Bachelor's degree or VWO diploma need one of the following: - A TOEFL score of >575 (paper based) or >90 (internet based) - An IELTS score of ≥6.5 - Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE) with a mark of C or higher

Career prospects

Approximately 40% of our graduates take up a PhD position, either in Nijmegen or elsewhere in the world. Our research institutes, in particular the Institute for Molecules and Materials, have vacancies for PhD projects every year. Our graduates also find work as researchers and managers in the chemical industry, or in one of our spin-off companies. A small proportion will not work in science, but for instance as a policymaker at a governmental organisation.

Our approach to this field

The Master's specialisation in Molecular Chemistry offers main stream chemistry courses and research topics, for those students that aim to deepen their knowledge and experimental skills in the heart of chemistry. The Institute for Molecules and Materials offers a state-of-the-art research infrastructure and hosts world-class research groups where you can conduct independent research, under the personal guidance of a researcher. Often, this leads to a scientific publication with you as a co-author.

Besides an internship in fundamental science, you can also chose to perform research in an industrial environment. Approximately one third of our students do one of their internships in a chemical company, both large (e.g. DSM, Synthon, AkzoNobel) and small (e.g. MercaChem, FutureChemistry, Chiralix).

Interested in going abroad? Contact one of our researchers, they can easily connect you to top groups elsewhere in the world. In the past few years, molecular chemistry students did internships in Oxford (UK), Princeton (US), Berkeley (US), Karolinska Institute (Sweden), ETH Zurich (Switzerland), etc.

Our research in this field

In the Master's specialisation Molecular Chemistry, the unique research facilities that Radboud University has to offer are coupled with the top level research within the Institute for Molecules and Materials (IMM). A selection of research groups for this specialisation are: - Synthetic organic chemistry (Prof. Floris Rutjes): The group focuses on the development of new and sustainable synthetic (multistep)reactions by using bio-, organo- or metal-catalysts or combinations thereof, synthesis of druglike compound libraries, synthesis of bio-orthogonal click-reactions and chemical synthesis in continuous flow microreactors

- Analytical chemistry (Prof. Lutgarde Buydens): Research involves new chemometric methodologies and techniques for the optimisation of molecular structures. The research programme is designed around four areas: Methodological chemometrics, spectroscopic image analysis, molecular chemometrics, and analysis of genomics, metabolomics and proteomics data.

- Bio-organic chemistry (Prof. Jan van Hest): This groups uses Nature as inspiration for the design of functional molecules. Research lines that fit in this specialisation include: design and synthesis of modified peptides to alter their biological function, hybrid polymers containing biomolecules for use as antibacterial materials, and smart compartmentalisation strategies to enable multi-step reactions in a single reaction flask.

- Molecular materials (Prof. Alan Rowan): The aim of the group is the design and synthesis of novel polymers, self-organising molecules and ordered crystals and the subsequent investigation of their properties. Research topics related to his specialisation are: functional systems for application in catalysis, new OLEDS (organic LEDS), and liquid crystals.

This course is specifically designed for applicants from a pharmacy or pharmaceutical sciences background and those without an in-depth coverage of organic chemistry and organic spectroscopy as part of their previous degree courses.
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This course is specifically designed for applicants from a pharmacy or pharmaceutical sciences background and those without an in-depth coverage of organic chemistry and organic spectroscopy as part of their previous degree courses.

It gives you the practical skills and knowledge to design and synthesise molecules that have therapeutic actions within the body.

The ultimate aim is to invent more selective and safer drugs to fight and cure disease. We also want to fully exploit the opportunities from identification of genes associated with a range of cancers, inherited disorders and agents of disease.

Specialist classes focus on: -Disease targets -Design of selectively-acting prototype drugs -Synthetic and mimetic strategies in producing drug prototypes -The refinement of activity when a promising compound is identified Case studies of well-known drugs are used to illustrate the principles

You’ll study

The course consists of three theory and three practical modules running between October and April. These are followed by exams. If you pass all exams and want to proceed to MSc you’ll undertake a 10-week research project and submit a thesis at the end of August.

There is a six-week preliminary conversion course starting 1 August that covers basic and underpinning organic chemistry and organic spectroscopy. Successful completion and examination results in the conversion course will allow you to transfer to the MSc in Medicinal Chemistry.

Course content

Learning & teaching

Teaching of theory and applications is through lectures and tutorials. The material is further reinforced with practical sessions, which provide hands-on experience with a wide range of modern instrumental techniques.

Assessment

Assessment is through both written and practical exams and submission of a thesis.

Careers

Graduates from this course will be ideal for positions in the pharmaceutical and chemical industries or may continue their studies into PhD research.

Additional modules cover the key techniques in analytical chemistry used to support the pharmaceutical sciences.

Core study areas include research methods, pharmacokinetics and drug metabolism, drug targets, drug design and drug synthesis, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Assessment

Careers and further study

Careers in a variety of industries, particularly the pharmaceutical and related industries, including drug metabolism, medicinal chemistry (organic synthesis), drug screening (action / toxicity), patents and product registration; also as preliminary study for a PhD.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc). Departmental bursaries, in the form of fee reduction, are available to self-funded international students. The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Research The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department. The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects 90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research.
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The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research. The programme is particularly suitable for those wishing to embark on an academic career, with a strong track record of students moving into graduate research at UCL and elsewhere.

Degree information

Students develop a systematic approach to devising experiments and/or computations and gain familiarity with a broad range of synthetic, analytical and spectroscopic techniques, acquiring skills for the critical analysis of their experimental and computational observations. They also broaden their knowledge of chemistry through a selection of taught courses and are able to tailor the programme to meet their personal interests.

Students undertake modules to the value of 180 credits.

The programme consists of one core module (30 credits), four optional modules (15 credits each) and a research project (90 credits).

Core modules - all students undertake a literature project (30 credits) and a research dissertation (90 credits), which are linked. -Literature Project

Optional modules - students choose four optional modules from the following: -Advanced Topics in Energy Science and Materials -Advanced Topics in Physical Chemistry -Biological Chemistry -Concepts in Computational and Experimental Chemistry -Frontiers in Experimental Physical Chemistry -Inorganic Rings, Chains and Clusters -Intense Radiation Sources in Modern Chemistry -Microstructural Control in Materials Science -Numerical Methods in Chemistry -Pathways, Intermediates and Function in Organic Chemistry -Principles of Drug Design -Principles and Methods of Organic Synthesis -Simulation Methods in Materials Chemistry -Stereochemical Control in Asymmetric Total Synthesis -Structural Methods in Modern Chemistry -Synthesis and Biosynthesis of Natural Products -Topics in Quantum Mechanics -Transferable Skills for Scientists

Dissertation/report All students undertake an independent research project which culminates in a dissertation of 15,000 words and a viva voce examination (90 credits).

Teaching and learning The programme is delivered through a combination of lectures, seminars, tutorials, laboratory classes and research supervision. Assessment is through the dissertation, unseen written examinations, research papers, a written literature survey, and an oral examination. All students will be expected to attend research seminars relevant to their broad research interest.

Careers

This MSc is designed to provide first-hand experience of research at the cutting-edge of chemistry and is particularly suitable for those wishing to embark on an academic career (i.e. doctoral research) in this area, although the research and critical thinking skills developed will be equally valuable in a commercial environment.

Top career destinations for this degree: -Analyst and Adviser, Silver Peak -Sales Associate, Sino Chen -Phd in Nanoparticle Synthesis, UCL -Secondary School Teacher (GCSE), Ministry of Education -PhD in High Performance Organic Coating for Aerospace, University of Surrey

Why study this degree at UCL?

With departmental research interests and activities spanning the whole spectrum of chemistry, including development of new organic molecules, fundamental theoretical investigations and prediction and synthesis of new materials, students are able to undertake a project that aligns with their existing interests.

Students develop crucial first-hand experience in scientific methods, techniques for reporting science and using leading-edge research tools, as well as further essential skills for a research career.

The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven.
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The MChem Analytical Chemistry programme at Plymouth provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels four to seven. Plymouth University is the only university which requires students to work in ISO9001:2015 certified laboratories.

Practical work to the ISO 17025 standard is a requirement at level seven for obtaining the MChem Analytical Chemistry qualification. The programme focuses on producing practical professional chemists through a hands-on approach to learning.

Key features

-The programme provides a pathway for progression through a broadly based undergraduate degree in Chemistry with increasing specialisation in Analytical Chemistry from levels 4 to 7 (Masters Level) -You will develop the theoretical and practical skills necessary for employment as professional chemist in a range of chemical and allied fields, including research, teaching and industry -The programme will develop the theoretical and practical skills, and provide training necessary for employment as an analytical chemist with experience of working to ISO 17025, the international standard for all testing and calibration laboratories -You will learn to become a practical professional chemists through a hands-on approach to learning. -The course places the professional skills of communication, problem solving, information and data retrieval and project management at its heart.

Developed in response to the Engineering and Physical Sciences Research Council (EPSRC), and after extensive consultation with industry, this programme is designed for graduates in chemistry or closely related disciplines who wish to contribute to drug development and analysis, a process that requires multidisciplinary skills.
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Developed in response to the Engineering and Physical Sciences Research Council (EPSRC), and after extensive consultation with industry, this programme is designed for graduates in chemistry or closely related disciplines who wish to contribute to drug development and analysis, a process that requires multidisciplinary skills.

The programme comprises a broad range of modules covering the major aspects of analytical and pharmaceutical chemistry, complemented by studies in transferable and professional skills.

Core study areas include research methods, separation techniques, pharmacokinetics and drug metabolism, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Assessment

Careers and further study

The programme is for those who wish to extend their knowledge in a particular area or broaden their field in order to increase their career prospects.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc). Departmental bursaries, in the form of fee reduction, are available to self-funded international students. The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Research The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department. The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects 90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

This programme is designed to provide comprehensive training in analytical chemistry and its implementation in a variety of fields including biomedical, pharmaceutical, food and environmental analysis.
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This programme is designed to provide comprehensive training in analytical chemistry and its implementation in a variety of fields including biomedical, pharmaceutical, food and environmental analysis.

The programme comprises a broad range of modules covering all the major analytical techniques, complemented by studies in transferable and professional skills, with the option to study aspects of medicinal and pharmaceutical chemistry if desired.

Core study areas include research methods, separation techniques, mass spectrometry and associated techniques, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Assessment

Examination and coursework.

Careers and further study

Careers in a variety of industries including pharmaceuticals, chemicals, food, environmental management, contract analysis laboratories, public laboratories, regulatory authorities and instrument manufacturers in either technical or marketing functions or preliminary study for a PhD.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc). Departmental bursaries, in the form of fee reduction, are available to self-funded international students. The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Research The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department. The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects 90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste.
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This MSc course addresses scientific, technological and legislative aspects of the diagnosis (analysis and assessment) and management (remediation and restoration) of important environmental issues concerned with contaminated land, water quality, air pollution and waste.

It has been designed with industry advice to enable good science and engineering graduates begin and advance successful careers in the environmental sector, and pursue postgraduate scientific research. The MSc is delivered in first-class teaching and research facilities by a dedicated team of internationally renowned environmental scientists, and presents considerable interaction with environmental consultancies and engineers, industry, local and regulatory authorities, and research institutes.

During 2007-2011, the course was supported by 6 NERC studentships, the most awarded annually to an environmental MSc. Students on the course have won the most EMpower research projects funded by companies within the nuclear industry, and since 2008, a Prize for Best Performance Overall has been awarded annually by Arup, a global environmental engineering and consultancy company.

Why choose this course?

- The quality of teaching and learning on the course is enhanced considerably by significant professional networking and interaction with leading experts from environmental consultants and engineers, industry, local and regulatory authorities, and universities and research institutes; who present seminars, host study visits, co-supervise research projects, and act as an advisory panel.

- Graduates of the course are skilled and knowledgeable scientists with excellent employment prospects within the environmental sector, particularly as environmental consultants and engineers, in local and regulatory authorities, industry, charitable trusts, and research institutes and universities.

- In the 2008 Research Assessment Exercise (RAE), the Department’s research was ranked equal 6th in the UK with 70% rated as world-leading or internationally excellent in terms of originality, significance and rigour.

Course content and structure

You will study seven taught modules, three case studies and complete an Independent Research Project:

- Communication & Co-operation Skills Provides practical training in written and verbal communication media; project, team and time management; role playing in environmental impact assessment; careers advice and a mock job interview.

- Water Quality: Diagnosis & Management A practical laboratory and field-work based introduction to aquatic science, hydrogeology, treatment of water and wastewater, and chemical, biological and physical monitoring of water quality. Includes a study visit to a global manufacturer of pesticides and herbicides.

- River Thames Basin Case Study A combination of fieldwork, laboratory work and desk-top study to diagnose water quality in chemical and ecological terms, to identify industrial and agricultural pollutant linkages, and to determine environmental, ecological and health impacts.

- Air Pollution: Monitoring, Impacts & Management Covers: sources, sinks, dispersion, conversion, monitoring, impacts and management of air pollutants with study visits to a local authority and a government research institute.

- Royal Holloway Campus Air Quality Case Study Involves a consultancy company-style investigation of ambient and indoor air quality within the confines of RHUL campus; and combines desk-top research with practical fieldwork and laboratory analysis.

- Independent Research Project Consists of a four-month, independent scientific investigation, usually in collaboration with environmental consultants and engineers, local and regulatory authorities, industry, research institutes, and universities. Projects may comprise a desk-top study or practical laboratory and field investigation, they may be funded, and often lead to employment or to PhD research. Final results are presented at the Research Project Symposium to an audience from within the environmental sector

On completion of the course graduates will have acquired the experience, knowledge, and critical understanding to enable them to:

- Conduct themselves as professional environmental research scientists, consultants, and managers, convey in a professional manner, scientific, technical and managerial information, and manage projects and resources efficiently

- Appreciate the importance and impacts of hydro-geological, and bio- and physico-chemical processes on the treatment of water and wastewater, and on the quality of groundwater and aquatic ecosystems

- Appreciate the emissions, dispersion, conversion, and monitoring of natural and man-made gaseous and particulate air pollutants, their impacts on climate change, human health and vegetation, and management on local, regional and global scales

- Appreciate the prevention, re-use, recycling, recovery, disposal and utilisation of municipal and industrial waste and the management of nuclear waste within the constraints of national and international legislation

- Manage an independent environmental science research project, often with professional collaboration, and of significant value to their career development.

Assessment

- Written examinations test understanding of the principles and concepts taught in the modules and case studies, and the ability to integrate and apply them to environmental diagnosis and management.

- Assessment of module work and practical computing, laboratory and fieldwork evaluates critical understanding of the environmental science taught, and mastery of producing quality assured data, and its analysis, interpretation, presentation and reporting.

- Assessment also reflects the ability to work independently and in teams, and to learn during study visits.

- Assessment of research projects is based on the ability to manage and report on an original piece of independent scientific work.

- All assessed work has significant confidential written and verbal feedback.

Employability & career opportunities

94% of the graduates of the MSc from 2008 to 2013 either successfully secured first-destination employment as international environmental consultants and engineers, in industry, local and regulatory authorities and charitable trusts, or are conducting postgraduate research within international research institutes and universities.